#!/bin/bash
# Copyright (c) 2024-2025 Tigera, Inc. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

# Azure Service Operator v2 VirtualMachine Management Script
# 
# This script manages Azure VirtualMachine resources using Azure Service Operator v2.
# It has been enhanced with ASO v2 best practices including:
#
# Usage:
#   ./vmss.sh create      - Create VirtualMachine resources with ASO v2
#   ./vmss.sh info        - Show VM connection information  
#   ./vmss.sh confirm-ssh - Verify SSH connectivity
#   ./vmss.sh diagnose    - Diagnose ASO v2 resource status
#   ./vmss.sh delete      - Delete ASO v2 resources and cleanup namespace
#
# Requirements:
# - kubectl configured with cluster access  
# - gomplate for template processing
# - Azure credentials (AZURE_SUBSCRIPTION_ID, AZURE_TENANT_ID, AZURE_CLIENT_ID, AZURE_CLIENT_SECRET)
#

: ${ASO_DIR:="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"}

. ${ASO_DIR}/export-env.sh

. ${ASO_DIR}/../util/utils.sh

: ${KUBECTL:=${ASO_DIR}/bin/kubectl}
: ${GOMPLATE:=${ASO_DIR}/bin/gomplate}

# Trap function to run diagnostics on non-zero exit
function exit_handler() {
  local exit_code=$?
  
  # Only run diagnostics if:
  # 1. Exit code is non-zero (failure)  
  # 2. We're not already in the diagnose command (avoid recursion)
  if [[ $exit_code -ne 0 && "$1" != "diagnose" ]]; then
    log_warning "Script failed with exit code $exit_code, running diagnostics..."
    echo "=================================="
    echo "AUTOMATIC DIAGNOSTICS ON FAILURE:"
    echo "=================================="
    diagnose_aso_resources
    pause-for-debug
  fi
}

# Set up the trap to run on script exit
trap exit_handler EXIT


function ensure_aso_credentials() {
  # Configure namespaced ASO credentials only
  log_info "Configuring namespaced ASO v2 credentials..."
  
  # Create namespace for our resources
  ${KUBECTL} create namespace winfv --dry-run=client -o yaml | ${KUBECTL} apply -f -
  
  log_info "Creating namespaced ASO credentials in winfv namespace..."
  
  # Create the namespaced credential secret
  cat <<EOF | ${KUBECTL} apply -f -
apiVersion: v1
kind: Secret
metadata:
   name: aso-credential
   namespace: winfv
stringData:
  AZURE_SUBSCRIPTION_ID: "$AZURE_SUBSCRIPTION_ID"
  AZURE_TENANT_ID: "$AZURE_TENANT_ID"
  AZURE_CLIENT_ID: "$AZURE_CLIENT_ID"
  AZURE_CLIENT_SECRET: "$AZURE_CLIENT_SECRET"
EOF
  
  if [[ $? -eq 0 ]]; then
    log_info "Namespaced ASO credentials created successfully"
  else
    log_error "Failed to create namespaced ASO credentials"
    return 1
  fi
}

function apply_azure_crds() {
  log_info "Starting ASO v2 resource deployment"
  
  # Ensure ASO credentials are available
  ensure_aso_credentials
  
  # Generate and export a secure password for Windows RDP.
  export PASSWORD=$(openssl rand -base64 16)
  export PASSWORD_BASE64=$(echo -n "$PASSWORD" | base64)
  cat << EOF > ${ASO_DIR}/password.txt
-------------Connect to Windows Instances-------------
username: winfv 
password: $PASSWORD
password-base64: $PASSWORD_BASE64
EOF
  log_info "Generated Windows credentials: username=winfv, password saved to password.txt"

  rm -f ${SSH_KEY_FILE} ${SSH_KEY_FILE}.pub
  ssh-keygen -m PEM -t rsa -b 2048 -f "${SSH_KEY_FILE}" -N '' -C "" 1>/dev/null
  log_info "Machine SSH key generated in ${SSH_KEY_FILE}"
  export PUBLIC_KEY=$(cat ${SSH_KEY_FILE}.pub)

  rm -rf ${ASO_DIR}/infra/manifests || true
  ${GOMPLATE} --input-dir ${ASO_DIR}/infra/templates --output-dir ${ASO_DIR}/infra/manifests
  log_info "Generated manifests with gomplate"

  # Apply resources in dependency order with ASO v2 patterns
  log_info "Applying Azure resources with ASO v2..."
  
  # Step 1: Resource Group (foundational)  
  log_info "Creating Resource Group..."
  ${KUBECTL} apply -f ${ASO_DIR}/infra/manifests/resource-group.yaml

  if ! wait_for_aso_resource "resourcegroup" "$AZURE_RESOURCE_GROUP" "winfv" "300s"; then
    log_error "Failed to create Resource Group"
    return 1
  fi
  
  # Step 2: Networking components
  log_info "Creating networking components..."
  ${KUBECTL} apply -f ${ASO_DIR}/infra/manifests/vnet.yaml
  ${KUBECTL} apply -f ${ASO_DIR}/infra/manifests/security-group.yaml
  
  # Wait for VNet to be ready before proceeding
  if ! wait_for_aso_resource "virtualnetwork" "vnet-winfv" "winfv" "300s"; then
    log_error "Failed to create Virtual Network"
    return 1
  fi
  
  # Step 3: Secrets
  log_info "Creating secrets..."
  ${KUBECTL} apply -f ${ASO_DIR}/infra/manifests/password.yaml
  
  # Step 4: Virtual Machines and Network Resources
  log_info "Creating Virtual Machines and network resources..."
  ${KUBECTL} apply -f ${ASO_DIR}/infra/manifests/vmss-linux.yaml
  ${KUBECTL} apply -f ${ASO_DIR}/infra/manifests/vmss-windows.yaml
  
  # Build list of all VMs to wait for based on node counts
  local vm_resources=()
  for ((i=1; i<=${LINUX_NODE_COUNT}; i++)); do
    vm_resources+=("vm-linux-${i}")
  done
  for ((i=1; i<=${WINDOWS_NODE_COUNT}; i++)); do
    vm_resources+=("vm-windows-${i}")
  done
  
  log_info "Waiting for ${#vm_resources[@]} VirtualMachines: ${vm_resources[*]}"
  
  # Wait for VMs with extended timeout
  local failed_vms=()
  
  for vm in "${vm_resources[@]}"; do
    log_info "Waiting for VirtualMachine: $vm"
    if ! wait_for_aso_resource "virtualmachine" "$vm" "winfv" "$ASO_TIMEOUT_DEFAULT"; then
      log_error "VirtualMachine $vm failed to become ready"
      failed_vms+=("$vm")
      
      # Provide diagnostic information
      log_info "Diagnostic information for $vm:"
      ${KUBECTL} describe virtualmachine "$vm" -n winfv | tail -20
    else
      log_info "VirtualMachine $vm is ready"
    fi
  done
  
  if [[ ${#failed_vms[@]} -gt 0 ]]; then
    log_error "Failed VirtualMachine resources: ${failed_vms[*]}"
    log_info "Use '${KUBECTL} describe virtualmachine <name> -n winfv' for more details"
    return 1
  fi
  
  log_info "All ASO v2 resources applied and reconciled successfully"
}

# Default timeout for ASO operations (15 minutes for VMs)
: ${ASO_TIMEOUT_DEFAULT:=900s}

# Wait for ASO v2 resources to become ready using condition-based checking
function wait_for_aso_resource() {
  local resource_type="$1"
  local resource_name="$2"
  local namespace="$3"
  local timeout="${4:-$ASO_TIMEOUT_DEFAULT}"
  
  log_info "Waiting for $resource_type/$resource_name in namespace $namespace (timeout: $timeout)..."
  
  # First, wait for the resource to exist (up to 30 seconds)
  local wait_count=0
  while ! ${KUBECTL} get "$resource_type/$resource_name" -n "$namespace" >/dev/null 2>&1; do
    if [[ $wait_count -ge 30 ]]; then
      log_fail "$resource_type/$resource_name does not exist after 30 seconds"
      return 1
    fi
    log_info "Waiting for $resource_type/$resource_name to be created... (${wait_count}s)"
    sleep 1
    ((wait_count++))
  done
  
  # Now wait for the Ready condition
  if ${KUBECTL} wait --for=condition=Ready "$resource_type/$resource_name" -n "$namespace" --timeout="$timeout"; then
    log_info "$resource_type/$resource_name is ready"
    return 0
  else
    log_fail "$resource_type/$resource_name failed to become ready within $timeout"
    
    # Show diagnostic information
    log_info "Resource status for debugging:"
    ${KUBECTL} describe "$resource_type" "$resource_name" -n "$namespace" | tail -10
    return 1
  fi
}

function get_and_export_node_ips() {
  # Wait for vm deployments with ASO v2 patterns
  log_info "Getting and exporting node IPs..."
  
  LINUX_PIPS=()
  LINUX_EIPS=()
  
  for ((i=1; i<=${LINUX_NODE_COUNT}; i++)); do
    local vm_name="vm-linux-${i}"
    local nic_name="nic-linux-${i}"
    local pip_name="pip-linux-${i}"
    
    log_info "Ensuring ${vm_name} is ready with ASO v2 status check..."
    if ! wait_for_aso_resource "virtualmachine" "${vm_name}" "winfv" "480s"; then
      log_error "${vm_name} did not become ready in time"
      return 1
    fi
    
    # Get IP addresses from ASO CRDs
    log_info "Getting ${vm_name} IP addresses from ASO resources..."
    local pip=$(${KUBECTL} get networkinterface ${nic_name} -n winfv -o jsonpath='{.status.ipConfigurations[0].privateIPAddress}' 2>/dev/null || echo "")
    local eip=$(${KUBECTL} get publicipaddress ${pip_name} -n winfv -o jsonpath='{.status.ipAddress}' 2>/dev/null || echo "")
    
    if [[ -z "$eip" || -z "$pip" ]]; then
      log_error "Failed to retrieve IP addresses for ${vm_name} from ASO resources"
      log_info "Checking ASO resource status for debugging..."
      ${KUBECTL} get networkinterface ${nic_name} -n winfv -o yaml | grep -A 10 "status:" || true
      ${KUBECTL} get publicipaddress ${pip_name} -n winfv -o yaml | grep -A 10 "status:" || true
      return 1
    fi
    
    LINUX_PIPS+=("$pip")
    LINUX_EIPS+=("$eip")
    log_info "${vm_name} is ready. PIP:$pip, EIP:$eip"
  done
  
  # Export first Linux node as master
  export LINUX_PIP="${LINUX_PIPS[0]}"
  export LINUX_EIP="${LINUX_EIPS[0]}"
  
  # Export arrays as space-separated strings for cross-shell compatibility
  # Bash arrays cannot be exported to child processes, so we export as strings
  export LINUX_PIPS_STR="${LINUX_PIPS[*]}"
  export LINUX_EIPS_STR="${LINUX_EIPS[*]}"
  
  WINDOWS_PIPS=()
  WINDOWS_EIPS=()
  
  for ((i=1; i<=${WINDOWS_NODE_COUNT}; i++)); do
    local vm_name="vm-windows-${i}"
    local nic_name="nic-windows-${i}"
    local pip_name="pip-windows-${i}"
    
    log_info "Ensuring ${vm_name} is ready with ASO v2 status check..."
    if ! wait_for_aso_resource "virtualmachine" "${vm_name}" "winfv" "480s"; then
      log_error "${vm_name} did not become ready in time"
      return 1
    fi
    
    # Get IP addresses from ASO CRDs for Windows VM
    log_info "Getting ${vm_name} IP addresses from ASO resources..."
    local pip=$(${KUBECTL} get networkinterface ${nic_name} -n winfv -o jsonpath='{.status.ipConfigurations[0].privateIPAddress}' 2>/dev/null || echo "")
    local eip=$(${KUBECTL} get publicipaddress ${pip_name} -n winfv -o jsonpath='{.status.ipAddress}' 2>/dev/null || echo "")
    
    if [[ -z "$eip" || -z "$pip" ]]; then
      log_error "Failed to retrieve IP addresses for ${vm_name} from ASO resources"
      log_info "Checking ASO resource status for debugging..."
      ${KUBECTL} get networkinterface ${nic_name} -n winfv -o yaml | grep -A 10 "status:" || true
      ${KUBECTL} get publicipaddress ${pip_name} -n winfv -o yaml | grep -A 10 "status:" || true
      return 1
    fi
    
    WINDOWS_PIPS+=("$pip")
    WINDOWS_EIPS+=("$eip")
    log_info "${vm_name} is ready. PIP:$pip, EIP:$eip"
  done
  
  # Export first Windows node
  export WINDOWS_PIP="${WINDOWS_PIPS[0]}"
  export WINDOWS_EIP="${WINDOWS_EIPS[0]}"
  
  # Export arrays as space-separated strings for cross-shell compatibility
  # Bash arrays cannot be exported to child processes, so we export as strings
  export WINDOWS_PIPS_STR="${WINDOWS_PIPS[*]}"
  export WINDOWS_EIPS_STR="${WINDOWS_EIPS[*]}"

  # Setup connection info
  MASTER_CONNECT_COMMAND="ssh -i ${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 -o ServerAliveInterval=5 -o ServerAliveCountMax=3 winfv@${LINUX_EIP}"
  WINDOWS_CONNECT_COMMAND="ssh -i ${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 -o ServerAliveInterval=5 -o ServerAliveCountMax=3 winfv@${WINDOWS_EIP} powershell"

  # Create individual connect commands for each Linux node
  for ((i=0; i<${LINUX_NODE_COUNT}; i++)); do
    local var_name="LINUX_NODE_${i}_CONNECT"
    local cmd="ssh -i ${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 -o ServerAliveInterval=5 -o ServerAliveCountMax=3 winfv@${LINUX_EIPS[$i]}"
    eval "export ${var_name}='${cmd}'"
  done
  
  # Create individual connect commands for each Windows node (both regular and powershell)
  for ((i=0; i<${WINDOWS_NODE_COUNT}; i++)); do
    local var_name="WINDOWS_NODE_${i}_CONNECT"
    local var_name_ps="WINDOWS_NODE_${i}_CONNECT_PS"
    local cmd="ssh -i ${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 -o ServerAliveInterval=5 -o ServerAliveCountMax=3 winfv@${WINDOWS_EIPS[$i]}"
    local cmd_ps="ssh -i ${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 -o ServerAliveInterval=5 -o ServerAliveCountMax=3 winfv@${WINDOWS_EIPS[$i]} powershell"
    eval "export ${var_name}='${cmd}'"
    eval "export ${var_name_ps}='${cmd_ps}'"
  done

  # Export arrays for use in other scripts
  export LINUX_PIPS LINUX_EIPS WINDOWS_PIPS WINDOWS_EIPS MASTER_CONNECT_COMMAND WINDOWS_CONNECT_COMMAND CONTAINERD_VERSION

  log_info "Node IPs retrieved and exported successfully"
}

function generate_and_show_connect_file() {
  log_info "Generating connect.txt..."
  
  WIN_PASSWORD=$(grep "password:" ${ASO_DIR}/password.txt | awk -F':' '{print $2}')

  cat << EOF > connect.txt
-------------Connect to Linux Master Instance---------
${MASTER_CONNECT_COMMAND}

EOF

  # Add all Linux nodes to connect.txt
  for ((i=1; i<=${LINUX_NODE_COUNT}; i++)); do
    cat << EOF >> connect.txt
-------------Connect to Linux Node ${i}----------------
ssh -i ${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no winfv@${LINUX_EIPS[$((i-1))]}
PIP: ${LINUX_PIPS[$((i-1))]}
EIP: ${LINUX_EIPS[$((i-1))]}

EOF
  done

  # Add all Windows nodes to connect.txt
  for ((i=1; i<=${WINDOWS_NODE_COUNT}; i++)); do
    cat << EOF >> connect.txt
-------------Connect to Windows Node ${i}-------------
RDP://${WINDOWS_EIPS[$((i-1))]} user: winfv password:$WIN_PASSWORD
ssh -i ${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no winfv@${WINDOWS_EIPS[$((i-1))]} powershell
PIP: ${WINDOWS_PIPS[$((i-1))]}
EIP: ${WINDOWS_EIPS[$((i-1))]}

EOF
  done
  
  echo
  cat connect.txt
  
  log_info "connect.txt generated successfully"
}

function generate_helper_files() {
  log_info "Generating helper files..."
  
  # Generate ssh-node-linux.sh with node index support
  cat << EOF > ${ASO_DIR}/ssh-node-linux.sh
#!/bin/bash
# Usage: ./ssh-node-linux.sh [node_index] [command...]
# Examples:
#   ./ssh-node-linux.sh 0 "hostname"          # SSH to first Linux node (index 0)
#   ./ssh-node-linux.sh 1 "kubectl get nodes" # SSH to second Linux node (index 1)
#   ./ssh-node-linux.sh "kubectl get nodes"   # SSH to first node (default, backward compatible)

# IP addresses embedded at generation time from exported string
LINUX_EIPS=(${LINUX_EIPS_STR})
SSH_KEY_FILE="${SSH_KEY_FILE}"

# Check if first arg is a number (node index)
if [[ "\$1" =~ ^[0-9]+\$ ]]; then
  NODE_INDEX=\$1
  shift  # Remove the index from arguments
else
  NODE_INDEX=0  # Default to first node for backward compatibility
fi

# Validate node index
if [[ \$NODE_INDEX -ge \${#LINUX_EIPS[@]} ]]; then
  echo "Error: Node index \$NODE_INDEX out of range. Available Linux nodes: 0-\$((\${#LINUX_EIPS[@]}-1))"
  exit 1
fi

LINUX_EIP="\${LINUX_EIPS[\$NODE_INDEX]}"
ssh -i \${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 -o ServerAliveInterval=5 -o ServerAliveCountMax=3 winfv@\${LINUX_EIP} "\$@"
EOF
  chmod +x ${ASO_DIR}/ssh-node-linux.sh

  # Generate ssh-node-windows.sh with node index support
  cat << EOF > ${ASO_DIR}/ssh-node-windows.sh
#!/bin/bash
# Usage: ./ssh-node-windows.sh [node_index] [command]
# Examples:
#   ./ssh-node-windows.sh 0 "Get-Process"     # SSH to first Windows node (index 0)
#   ./ssh-node-windows.sh 1 "ipconfig /all"   # SSH to second Windows node (index 1)
#   ./ssh-node-windows.sh "Get-Process"       # SSH to first node (default, backward compatible)

# IP addresses embedded at generation time from exported string
WINDOWS_EIPS=(${WINDOWS_EIPS_STR})
SSH_KEY_FILE="${SSH_KEY_FILE}"

# Check if first arg is a number (node index)
if [[ "\$1" =~ ^[0-9]+\$ ]]; then
  NODE_INDEX=\$1
  shift  # Remove the index from arguments
else
  NODE_INDEX=0  # Default to first node for backward compatibility
fi

# Validate node index
if [[ \$NODE_INDEX -ge \${#WINDOWS_EIPS[@]} ]]; then
  echo "Error: Node index \$NODE_INDEX out of range. Available Windows nodes: 0-\$((\${#WINDOWS_EIPS[@]}-1))"
  exit 1
fi

WINDOWS_EIP="\${WINDOWS_EIPS[\$NODE_INDEX]}"
ssh -i \${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 -o ServerAliveInterval=5 -o ServerAliveCountMax=3 winfv@\${WINDOWS_EIP} powershell "\$@"
EOF
  chmod +x ${ASO_DIR}/ssh-node-windows.sh

  # Generate scp-to-windows.sh with node index support
  cat << EOF > ${ASO_DIR}/scp-to-windows.sh
#!/bin/bash
# Usage: ./scp-to-windows.sh [node_index] <local_file> <remote_path>
# Examples:
#   ./scp-to-windows.sh 0 kubeconfig c:\\\\k\\\\kubeconfig      # Copy to first Windows node (index 0)
#   ./scp-to-windows.sh 1 test.zip 'c:\\\\'                   # Copy to second Windows node (index 1)
#   ./scp-to-windows.sh kubeconfig c:\\\\k\\\\kubeconfig        # Copy to first node (default, backward compatible)

# IP addresses embedded at generation time from exported string
WINDOWS_EIPS=(${WINDOWS_EIPS_STR})
SSH_KEY_FILE="${SSH_KEY_FILE}"

# Check if first arg is a number (node index)
if [[ "\$1" =~ ^[0-9]+\$ ]]; then
  NODE_INDEX=\$1
  shift  # Remove the index from arguments
  LOCAL_FILE=\$1
  REMOTE_PATH=\$2
else
  NODE_INDEX=0  # Default to first node for backward compatibility
  LOCAL_FILE=\$1
  REMOTE_PATH=\$2
fi

# Validate arguments
if [[ -z "\$LOCAL_FILE" ]] || [[ -z "\$REMOTE_PATH" ]]; then
  echo "Usage: \$0 [node_index] <local_file> <remote_path>"
  echo "Examples:"
  echo "  \$0 0 kubeconfig c:\\\\\\\\k\\\\\\\\kubeconfig"
  echo "  \$0 1 images/file.zip 'c:\\\\\\\\'"
  echo "  \$0 kubeconfig c:\\\\\\\\k\\\\\\\\kubeconfig  # defaults to node 0"
  exit 1
fi

# Validate node index
if [[ \$NODE_INDEX -ge \${#WINDOWS_EIPS[@]} ]]; then
  echo "Error: Node index \$NODE_INDEX out of range. Available Windows nodes: 0-\$((\${#WINDOWS_EIPS[@]}-1))"
  exit 1
fi

WINDOWS_EIP="\${WINDOWS_EIPS[\$NODE_INDEX]}"
scp -r -i \${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 "\$LOCAL_FILE" winfv@\${WINDOWS_EIP}:"\$REMOTE_PATH"
EOF
  chmod +x ${ASO_DIR}/scp-to-windows.sh

  # Generate scp-from-windows.sh with node index support
  cat << EOF > ${ASO_DIR}/scp-from-windows.sh
#!/bin/bash
# Usage: ./scp-from-windows.sh [node_index] <remote_path> <local_file>
# Examples:
#   ./scp-from-windows.sh 0 c:\\\\k\\\\calico.log ./calico.log    # Copy from first Windows node (index 0)
#   ./scp-from-windows.sh 1 c:\\\\k\\\\report .                    # Copy from second Windows node (index 1)
#   ./scp-from-windows.sh c:\\\\k\\\\calico.log ./calico.log      # Copy from first node (default, backward compatible)

# IP addresses embedded at generation time from exported string
WINDOWS_EIPS=(${WINDOWS_EIPS_STR})
SSH_KEY_FILE="${SSH_KEY_FILE}"

# Check if first arg is a number (node index)
if [[ "\$1" =~ ^[0-9]+\$ ]]; then
  NODE_INDEX=\$1
  shift  # Remove the index from arguments
  REMOTE_PATH=\$1
  LOCAL_FILE=\$2
else
  NODE_INDEX=0  # Default to first node for backward compatibility
  REMOTE_PATH=\$1
  LOCAL_FILE=\$2
fi

# Validate arguments
if [[ -z "\$REMOTE_PATH" ]] || [[ -z "\$LOCAL_FILE" ]]; then
  echo "Usage: \$0 [node_index] <remote_path> <local_file>"
  echo "Examples:"
  echo "  \$0 0 c:\\\\\\\\k\\\\\\\\calico.log ./calico.log"
  echo "  \$0 1 c:\\\\\\\\k\\\\\\\\report ."
  echo "  \$0 c:\\\\\\\\k\\\\\\\\calico.log ./calico.log  # defaults to node 0"
  exit 1
fi

# Validate node index
if [[ \$NODE_INDEX -ge \${#WINDOWS_EIPS[@]} ]]; then
  echo "Error: Node index \$NODE_INDEX out of range. Available Windows nodes: 0-\$((\${#WINDOWS_EIPS[@]}-1))"
  exit 1
fi

WINDOWS_EIP="\${WINDOWS_EIPS[\$NODE_INDEX]}"
scp -r -i \${SSH_KEY_FILE} -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o ConnectTimeout=10 winfv@\${WINDOWS_EIP}:"\$REMOTE_PATH" "\$LOCAL_FILE"
EOF
  chmod +x ${ASO_DIR}/scp-from-windows.sh

  log_info "Helper files generated successfully"
}

# With static IP allocation, VMs should have stable IP addresses once ready.
# This function attempts to SSH into the VM.
function confirm-nodes-ssh() {
  log_info "Starting SSH connectivity confirmation for VMs..."

  get_and_export_node_ips
  generate_and_show_connect_file
  generate_helper_files
  
  log_info "Testing SSH connectivity with retry logic..."
  
  # Helper function to test SSH connectivity with retries using generated helper scripts
  test_ssh_connectivity() {
    local vm_type="$1"  # "linux" or "windows"
    local node_index="$2"
    local node_num=$((node_index + 1))
    local timeout=900  # 15 minutes (increased from 5 minutes for Windows VM boot time)
    local retry_delay=30  # Increased from 15 seconds for less noise
    local start_time=$(date +%s)
    
    local vm_name="${vm_type} VM ${node_num}"
    log_info "Testing ${vm_name} SSH connectivity..."
    
    while true; do
      # Use the generated helper scripts with timeout
      local test_result=0
      if [[ "$vm_type" == "linux" ]]; then
        timeout 30 ${ASO_DIR}/ssh-node-linux.sh $node_index "echo 'SSH test successful'" >/dev/null 2>&1
        test_result=$?
      else
        timeout 30 ${ASO_DIR}/ssh-node-windows.sh $node_index "Write-Host 'SSH test successful'" >/dev/null 2>&1
        test_result=$?
      fi
      
      if [[ $test_result -eq 0 ]]; then
        log_info "${vm_name} SSH connectivity test passed"
        return 0
      fi
      
      local current_time=$(date +%s)
      local elapsed=$((current_time - start_time))
      
      if [[ $elapsed -ge $timeout ]]; then
        log_fail "SSH connectivity test to ${vm_name} failed after 15 minutes of retries"
        return 1
      fi
      
      log_info "${vm_name} SSH test failed, retrying in ${retry_delay} seconds... (elapsed: ${elapsed}s)"
      sleep $retry_delay
    done
  }
  
  # Test all Linux VMs
  for ((i=0; i<${LINUX_NODE_COUNT}; i++)); do
    if ! test_ssh_connectivity "linux" $i; then
      exit 1
    fi
  done
  
  # Test all Windows VMs
  for ((i=0; i<${WINDOWS_NODE_COUNT}; i++)); do
    if ! test_ssh_connectivity "windows" $i; then
      exit 1
    fi
  done
  
  log_info "All SSH connectivity tests completed successfully"
}

function diagnose_aso_resources() {
  log_info "Diagnosing ASO v2 resources..."
  
  # Check if ASO is running
  log_info "Checking ASO v2 controller status..."
  if ${KUBECTL} get deployment azureserviceoperator-controller-manager -n azureserviceoperator-system &>/dev/null; then
    ${KUBECTL} get pods -n azureserviceoperator-system
  else
    log_warn "ASO v2 controller not found"
  fi
  
  # Check namespace and resources
  if ${KUBECTL} get namespace winfv &>/dev/null; then
    log_info "ASO resources in winfv namespace:"
    ${KUBECTL} get virtualmachines,publicipaddresses,networkinterfaces,networksecuritygroups,virtualnetworks,resourcegroups -n winfv -o wide 2>/dev/null || log_warn "No ASO resources found"
    
    # Check for stuck finalizers
    log_info "Checking resources with finalizers:"
    echo "=== Main ASO Resources ==="
    ${KUBECTL} get virtualmachines,publicipaddresses,networkinterfaces,networksecuritygroups,virtualnetworks,resourcegroups -n winfv -o jsonpath='{range .items[*]}{.kind}/{.metadata.name}: {.metadata.finalizers}{"\n"}{end}' 2>/dev/null || true
    
    echo "=== VM Extensions ==="
    ${KUBECTL} get virtualmachinesextensions -n winfv -o jsonpath='{range .items[*]}{.kind}/{.metadata.name}: {.metadata.finalizers}{"\n"}{end}' 2>/dev/null || true
    
    echo "=== Security Rules and Subnets ==="
    ${KUBECTL} get networksecuritygroupssecurityrules,virtualnetworkssubnets -n winfv -o jsonpath='{range .items[*]}{.kind}/{.metadata.name}: {.metadata.finalizers}{"\n"}{end}' 2>/dev/null || true
    
    # Check credential status
    log_info "Checking ASO credentials:"
    if ${KUBECTL} get secret aso-credential -n winfv &>/dev/null; then
      echo "✓ aso-credential secret exists in winfv namespace"
    else
      echo "✗ aso-credential secret NOT found in winfv namespace - this explains the credential errors!"
      echo "  Re-run './vmss.sh create' to recreate the required credentials"
    fi
    
    # Show detailed status for VMs
    log_info "Detailed VirtualMachine status:"
    for ((i=1; i<=${LINUX_NODE_COUNT}; i++)); do
      local vm="vm-linux-${i}"
      if ${KUBECTL} get virtualmachine $vm -n winfv &>/dev/null; then
        echo "--- VirtualMachine: $vm ---"
        ${KUBECTL} get virtualmachine $vm -n winfv -o yaml | grep -A 20 "status:" | grep -E "(conditions|ready|message|reason)"
      fi
    done
    for ((i=1; i<=${WINDOWS_NODE_COUNT}; i++)); do
      local vm="vm-windows-${i}"
      if ${KUBECTL} get virtualmachine $vm -n winfv &>/dev/null; then
        echo "--- VirtualMachine: $vm ---"
        ${KUBECTL} get virtualmachine $vm -n winfv -o yaml | grep -A 20 "status:" | grep -E "(conditions|ready|message|reason)"
      fi
    done
  else
    log_info "Namespace winfv does not exist"
  fi
}

function delete_rg() {
  log_info "Deleting Azure Resource Group directly using az cli"
  
  # Verify required environment variables
  : "${AZURE_RESOURCE_GROUP:?Environment variable empty or not defined.}"
  
  # Check if resource group exists
  log_info "Checking if resource group '${AZURE_RESOURCE_GROUP}' exists..."
  if ! az group show --name "${AZURE_RESOURCE_GROUP}" &>/dev/null; then
    log_info "Resource group '${AZURE_RESOURCE_GROUP}' does not exist, nothing to delete"
    return 0
  fi
  
  log_info "Deleting resource group '${AZURE_RESOURCE_GROUP}'..."
  if ! az group delete --name "${AZURE_RESOURCE_GROUP}" --yes --no-wait; then
    log_error "Failed to initiate resource group deletion"
    return 1
  fi
  
  log_info "Resource group deletion initiated, waiting for completion..."
  
  # Wait for resource group to be completely deleted
  local timeout=600  # 10 minutes timeout
  local count=0
  local check_interval=10
  
  while [[ $count -lt $timeout ]]; do
    if ! az group show --name "${AZURE_RESOURCE_GROUP}" &>/dev/null; then
      log_info "Resource group '${AZURE_RESOURCE_GROUP}' has been deleted successfully"
      
      # Also clean up the winfv namespace if it exists
      if ${KUBECTL} get namespace winfv &>/dev/null; then
        log_info "Cleaning up winfv namespace..."
        ${KUBECTL} delete namespace winfv --timeout=60s || true
      fi
      
      return 0
    fi
    
    sleep $check_interval
    count=$((count + check_interval))
    
    if (( count % 60 == 0 )); then
      log_info "Still waiting for resource group deletion... (${count}s elapsed)"
    fi
  done
  
  log_error "Resource group deletion timed out after ${timeout}s"
  log_warn "You may need to check Azure portal for the status of '${AZURE_RESOURCE_GROUP}'"
  return 1
}

case $1 in
  create)
    apply_azure_crds
    ;;
  node-ips)
    get_and_export_node_ips
    ;;
  info)
    get_and_export_node_ips
    generate_and_show_connect_file
    generate_helper_files
    ;;
  confirm-ssh)
    confirm-nodes-ssh
    ;;
  diagnose)
    diagnose_aso_resources
    ;;
  delete)
    delete_rg
    ;;
  *)
    echo "vmss.sh [create|info|confirm-ssh|diagnose|delete] - manages VirtualMachine resources with ASO v2"
    echo ""
    echo "Commands:"
    echo "  create       - Create Azure VirtualMachine resources using ASO v2"
    echo "  node-ips     - Get and export node IPs"
    echo "  info         - Show VM connection information"
    echo "  confirm-ssh  - Verify SSH connectivity to VMs"
    echo "  diagnose     - Diagnose ASO v2 resource status and finalizers"
    echo "  delete       - Delete ASO v2 resources and cleanup namespace"
    echo ""
    ;;
esac

